I am currently right now trying to filter out a baseline voltage drift in my voltage signal. I applied a high pass filter transform function to remove the noiseat 0 Hz. However, when I do this I then get new spikes at higher voltages that occur in the frequency domain that were not there in the frequency domain before I filtered my data. I am able to filter out 60 Hz noise without seeing peaks in graphs but not the 0 Hz noise. I saw online someone say that you need to make a decay from your transfer function because a sharp change can cause additional issues (I think what I am seeing), but I am unsure how to go about doing that and if that is what is happening with my data.
I included images below of my graphs (see attached screenshot). Figure 3 is my unfiltered data (note that I have code not shown below that sucessfully removes teh 60 Hz nosie with no issues). Figure 4 is then my graph from trying to remove the baseline noise than then results in the additinoal peaks.
trial_data = readtable("trial_data.csv");
Error using readtable (line 517)
Unable to find or open 'trial_data.csv'. Check the path and filename or file permissions.
time_vector = table2array(trial_data(:,1));
channel_1_unprocessed = table2array(trial_data(:,3));
channel_2_unprocessed = table2array(trial_data(:,4));
channel_3_unprocessed = table2array(trial_data(:,5));
f = (-N/2:N/2-1) * (fs / N);
f_harmonic = f_target * k;
filter_0Hz((f >= f_harmonic - bandwidth) & (f <= f_harmonic + bandwidth)) = 0;
filter_0Hz((f >= -f_harmonic - bandwidth) & (f <= -f_harmonic + bandwidth)) = 0;
filter_0Hz = filter_0Hz';
ylabel('Filter Response')
title('Notch Filter around 60 Hz and Harmonics')
